CS275827B6 - Wheel trueing attachment - Google Patents

Description

(57)

The dresser profile consists of profiled inserts (18) made of hard or very hard materials with gaps between them. The dressing roller-shaped straightener (10) has segments (14) spaced one behind the other at the periphery of the shaft (12). On the front faces of the segments (14), profiled inserts (18) are mounted mounted on the carbide inserts (16). The profiled plate material (18) is a polycrystalline synthetic diamond machined by electro-spark erosion.

Fig. 1

CS 275827 BS

The invention relates to a grinding wheel dresser comprising a body with a profiled working part.

The main function of dressers when working the grinding wheel working surfaces is to remove blunted abrasive grains and metal particles that adhere to the grinding wheel during grinding, and to restore the correct geometrical shape of the grinding body. It has long been known to use diamond dressers as dressers. Single diamond dressers with a large number of diamond grains, diamond dressing blocks and diamond dressing rollers are known. The dressing block can pass under the grinding wheel and material removal can occur with a small infeed to the engagement in several passes. The diamond dressing rollers perform a rotational movement and preferably relative movement to the rotating grinding wheel during dressing of the grinding wheels, the rotating movement being bi-directional and preferably caused by a separate drive.

The production of diamond dressing rollers recognizes the positive and negative ways. In a positive manner, diamond grains are applied to the base body with exact dimensions and bonded to it with a galvanic metal coating. In this way, diamond dressing rolls with limited accuracy can be produced. On the other hand, a higher shape accuracy can be achieved in a negative way: diamonds with a galvanic metal layer or sintered metal are manually inserted into the shaping ring whose inner shape exactly matches the dressing roller to be manufactured and then interconnected in various ways. After removing the forming ring, a dressing roller is formed. Whose outer contours exactly match the required profile.

Dressing rollers of different designs can be produced by using different sized diamond grains and different manufacturing technologies as well as different metal or plastic bonding compounds. With only a few exceptions, the diamond dressing rollers are coated with a single layer of diamond grains which covers the entire surface of the dressing roller and thus forms a closed surface.

It is an object of the present invention to provide a dresser that would provide the absolute geometrical accuracy and cutness of the grinding wheel to be treated to increase the life of the wheel. Furthermore, it is an object of the present invention to provide a dresser such that its engagement with the grinding wheel to be machined is substantially increased over conventional dressers and thus to reduce dressing time.

The principle of the invention consists in that the profile of the dresser consists of profiled plates of hard or very hard material, which have gaps between them. The hard or very hard material is preferably a polycrystalline synthetic diament or cubic crystalline boron nitride or carbide, for example in the form of tungsten or titanium compounds, or ceramics, according to a preferred embodiment of the invention the plates consist of a compact mass of hard or very hard material or which has the desired profile and is coated with a layer of this material. If the profiled inserts are of coated base bodies, known processes, for example electrolytic deposition or vapor deposition, known to process diamond, carbide or ceramic cutting materials, can be used.

Dressing roller dresser according to the invention is characterized in that profiled inserts made of hard or very hard material are located on the front surfaces of segments on the periphery of the shaft, for example having a tooth shape, Ξ the dressing roller profile consists of the facing faces of profiled inserts. hard or very hard material of several, preferably two, segments arranged one after the other. This has the advantage, in particular, when the front face of one segment consists of a plurality of profiled inserts of synthetic diamond, since these inserts are not available in any size. The profiled plates of the successive segments are then placed offset to each other to overlap. This has an advantage ^'that does not show při_orovnáváni_se gap - S? ^between adjacent plates. According to a further feature of the invention, in the dressing roller shank, chip chambers are located in front of the faces, which can retain metal particles and abrasive grains while the grinding wheel is being processed, as otherwise 272827 BS annual devices would be desirable. .

In order to produce the desired profile from the currently available polycrystalline synthetic diamond plates having the shape of circular disks with a thickness of 1.5 or 3.2 mm and a diameter of 13.7 mm, the plates are machined by electro-spark machining, electron beam processing , laser beam, hot oxygen beam, grinding or forming, for example by pressing.

The advantage of the dresser according to the invention over the known dressers is that the dressing speed is substantially higher. The prior dressing of the grinding wheels is in fact grinded, while the dressing machine according to the invention grinds the grinding wheels in principle, so that in the meantime the name of the milling dressing has taken the name. Milling is normally faster than grinding. The grinding wheels are used for fine and fine machining and must therefore be machined with maximum throughput. Seemingly, this is not feasible with a milling dresser, where each cutting edge is cut into its perimeter and cuts a wave at each grinding wheel. The precisely cylindrical circumferential surface is only formed by the fact that a large number of offset ripples are formed on the circumference, which merge into one another and form a uniform surface of the grinding wheel.

Further advantages and features of the invention will become apparent from the following description of the dresser in conjunction with the drawings, wherein FIG. 1 shows a dresser according to the invention in the form of a dressing disc in side view; FIG. 2 shows a plan view of the dresser in FIG. 4 is a cross-sectional view of the dressing block of FIG.

The dressing roller 10 of FIG. 1 consists of a base body or shaft 12 which, in a particular embodiment, has eight segments 14 circumferentially. Carbide inserts 16 are fastened to the faces of the segments 14. On the plates 16, a carrier material 20 is fastened to the upper part, which serves to attach the profiled plates 18 of polycrystalline synthetic diamond. The support material 20 is preferably in the form of a carbide backing. It will be understood that instead of a polycrystalline synthetic diamond, other cutting material may be used and may be disposed directly on the faces of the segments 14.

As shown in the exemplary embodiment of FIG. 2, more than one profiled plate 18, as indicated by the blackened area, is often mounted on the face of one segment 14 to produce the desired profile. In order to avoid contact between adjacent synthetic profiled plates 18 during dressing of the grinding wheels, so as not to lead, for example, to an undesirable bump or depression on the grinding wheel, the diamond plates 18 are offset from one another on the segments 14. Thus, the plates 18 at the point of contact overlap when the dressing roller ID is rotated, so that the very precise geometrical form of the grinding wheel is maintained, as shown in FIG. 2, two diamond profiled plates 18 are deposited on one segment 22 while only a single plate 18 which is positioned exactly at the interface of the plates 18 of the previous segment 22.

Although a simple profile formed by diamond plates 18 is shown in the exemplary embodiment, this profile may, of course, have any shape. To produce the desired profile, diamond plates can be machined by electro-spark erosion, electron beam laser beam, hot oxygen beam and pressurized water, grinding or forming, for example, by pressing. This ensures perfect accuracy of the diamond plate profiles 18 so that the working surface of the grinding wheel dresses with the dressing roller 10 is characterized not only by geometrical precision but also by excellent cutting ability and thus has a long service life.

In order to be able to remove the blunted abrasive grains torn from the grinding wheel and metal particles in a simple manner, a chip chamber 26 is arranged in front of the segments 14 in which undesirable particles are trapped. The complicated removal of these particles, which is necessary when using known dressers with 37 diamond grain continuous areas, is therefore not necessary.

Fig. 3 shows a dresser in the form of a dressing block 3D with 7 protrusions 32 on the front face of which the cutting material is in the form of profiled spacers 34. The raw material is hard or very hard substances, which may consist of compact masses in the form of profiled plates or from basic bodies coated with cutting

CS 275827 86 material. The protrusions 32 may form an integral part of the base body 28 or may be attached thereto,

In this exemplary embodiment, the profiled polycrystalline synthetic diamond plates 34 are connected to the base body 28 by a carrier material simultaneously forming protrusions 32. As with the dressing roller 10, the protrusions 32 of the dressing block 30 are preceded by a chip chamber 36.

FIG. 4 is a front view of a dressing block 30 from which it is seen that the sectional area of one projection 32 is assembled from a plurality of treated wafers 34 ₂ hard or hard material.

In addition, the dressing roller 10 and dressing block 30 according to the invention have the further advantage that they can be easily machined without difficulty since the profiled cutting material plates deposited on the front surfaces can be subsequently profiled and possibly replaced.

Claims (6)

PATENT CLAIMS A grinding wheel dresser comprising a body with a profiled working part, characterized in that its profile is formed by profiled plates (18, 34) of hard or very hard material having gaps between them. 2. Dresser according to claim 1, characterized in that the hard or very hard material is a semi-crystalline synthetic diament, cubic crystalline boron nitride or hard metal, for example in the form of tungsten or titanium compounds, or ceramic. 3. Dresser according to claim 1 or 2, characterized in that the profiled plates (18, 34) consist of a compact body made of hard or very hard material or of a base body coated with this material. 4. Dresser according to claim 1, characterized in that the profiled inserts (18) of hard or very hard material are located on the front surfaces of the segments (14) on the periphery of the shaft (12). 5. Dresser according to claim 4, characterized in that the profile of the dressing roller (10) consists of partial faces of profiled inserts (18) of hard or very hard material consecutively, preferably two segments (14, 22, 24), 6. Dresser according to claim 4, characterized in that in the shank (12) of the dressing roller (10) chip chambers (26) are arranged in front of the faces of the segments (14).